KR100960948B1

KR100960948B1 - Automatic opening and shutting device for sliding door and sliding door using the same

Info

Publication number: KR100960948B1
Application number: KR1020090096718A
Authority: KR
Inventors: 김명식
Original assignee: 주식회사 씨쓰리
Priority date: 2009-10-12
Filing date: 2009-10-12
Publication date: 2010-06-03

Abstract

Disclosed is an automatic opening and closing device of a sliding window and a sliding window using the same, which does not require great force in the process of opening and closing each window in a sliding window. To this end, it provides an automatic opening and closing device of a sliding window including a guide rail, a rotary pulley, a driving motor, a motor pulley, an auxiliary pulley, a rotating belt, a fixing member hanger, a window fixing member. According to the present invention, it is formed to open and close the sliding window automatically, and by forming the structure of the automatic opening and closing device relatively simple to prevent the frequent malfunction and failure of the automatic opening and closing device, and increase the service life of the automatic opening and closing device Has an effect. In addition, the present invention is provided by the auxiliary pulleys on the left and right of the motor pulley connected to the constituent motor to maintain the rotation belt taut has the effect of smoothly transmitting the driving force of the constituent motor to the rotating belt.

Description

AUTOMATIC OPENING AND SHUTTING DEVICE FOR SLIDING DOOR AND SLIDING DOOR USING THE SAME}

The present invention relates to an automatic opening and closing device of a sliding window and a sliding window using the same, and more particularly, the automatic opening and closing of a sliding window that can be opened and closed automatically without requiring a large force in the process of opening and closing each window in a sliding window. The present invention relates to a device and a sliding window using the same.

In general, the sliding door is used to partition the door or the interior of a certain space of the room refers to the door that is opened and closed by pushing the doors mounted on the door frame sideways.

The sliding door is a bar that is installed in a large place of the indoor space is mostly bar bar, as shown in Figure 1, receives the power of the drive motor 10 from the chain 20, through the chain 20 Left and right sliding windows (40a, 40b) is sliding on the rail 50, the upper side of the rail is configured with a controller 30 for controlling the drive motor 10 and a limit switch for setting the limit of opening and closing the windows Trabel box 70 is configured to be installed at one end of the rail (50).

The sliding doors of the related art are opened as far as possible, so that the driving motor 10 is temporarily stopped while being in contact with the first limit switch, thereby leaving the limit due to the inertia by the weight of the window itself. In addition, even when the window is closed, the weight and wear of the door itself is out of the limit. Therefore, when the window is not stopped at the stop position, the chain 20 that slides the window by receiving the driving force of the driving motor is loosened and is frequently displaced or severely broken. Problems are difficult to manage.

In addition, the sliding windows and doors that interlock may cause a problem that the operation of the windows stops when the electricity supply is stopped.

For example, Korean Patent Registration Publication No. 0792690 (January 8, 2008) discloses one front and rear drive rack gear that linearly reciprocates in different directions on one side before and after the drive gear rotated by the drive motor. The automatic sliding door is configured to be used for a long time without departing from the driving rack gear or breaking of the driving rack gear even if the door deviates from its limit when the door is operated.

However, the automatic sliding door has a complicated configuration as a whole, there is a problem that parts management and parts replacement is difficult to use in a general window.

In addition, in order to connect and install the drive unit and the gear unit, additional connection means, such as bolts, etc., must be provided.

Accordingly, a first object of the present invention is to provide an automatic opening and closing device of a sliding window which can be installed regardless of any window such as a wooden window or a window for installing rails on the floor.

It is also a second object of the present invention to provide a sliding window provided with an automatic opening and closing device of a sliding window that can be installed regardless of any window such as a wooden window or a window for installing rails on the floor.

In order to achieve the first object of the present invention described above, according to an embodiment of the present invention, the main line rail seated on the side of the upper door frame located on the upper side of each window, and on one side based on the longitudinal direction of the main line rail A guide rail consisting of a guard rail projecting vertically; A pair of rotary pulleys provided at both ends of the guide rail; A driving motor seated on the upper door frame to provide a driving force; A motor pulley installed to be connected to the rotation shaft of the drive motor and rotating according to the rotational drive of the rotation shaft; A pair of auxiliary pulleys provided to be spaced apart from the motor pulley by a predetermined distance; A rotating belt contacting the motor pulley, the pair of rotary pulleys, and the pair of auxiliary pulleys to orbitally move according to the rotation of the motor pulley; A fixing member hanger part having two or more fixing member hangers protruding in a vertical direction on an upper portion of a window adjacent to the guide rail at regular intervals; And a window fixing member having one end connected to the fixing member hanger, the other end connected to the rotating belt adjacent to the guard rail, and having at least two fixing members sliding along the guard rail. Provide automatic opening and closing device.

In addition, in order to achieve the second object of the present invention, according to an embodiment of the present invention, a sliding window consisting of one or more windows, the upper door frame provided on each window; A guide rail consisting of a main rail mounted on the side of the upper door frame and a guard rail projecting perpendicularly to one side of the main rail, and a pair of rotary pulleys provided at both ends of the guide rail; A motor seated on an upper part of the upper door frame to provide a driving force, a motor pulley connected to a rotation shaft of the motor and rotating according to the rotational drive of the rotation shaft, and a pair of auxiliary parts provided to be spaced apart from the motor pulley by a predetermined distance. Two pulleys, a rotating belt rotating in accordance with the rotation of the motor pulley in contact with the motor pulley, the rotary pulley and the auxiliary pulley, and a fixed member hanger protruding in the vertical direction on the upper part of the window adjacent to the guide rail at regular intervals Fixing member hanger which is provided above, and one end is connected to the fixing member hanger, the other end is in the guard rail An automatic opening / closing device of a sliding door and door, which is connected to a contacting rotating belt and comprises a window and door fixing member having two or more fixing members sliding along the guard rail; A support neck provided on an upper surface of the upper door frame to support a side of the motor; It is provided on the upper side of the support wood reinforcement for forming an attachment space of the automatic opening and closing device of the sliding window; And it is attached to the reinforcement tree provides a sliding window comprising a top closing plate for covering the automatic opening and closing device of the sliding window from the outside.

According to the present invention, it is formed to open and close the sliding window automatically, and by forming the structure of the automatic opening and closing device relatively simple to prevent the frequent malfunction and failure of the automatic opening and closing device, and increase the service life of the automatic opening and closing device Has an effect.

In addition, by providing the auxiliary pulley to the left and right of the motor pulley connected to the component motor has an effect that can keep the rotating belt taut to smoothly transmit the driving force of the component motor to the rotating belt.

In addition, when the vibration absorber is further provided in the lower portion of the configuration motor has the effect of reducing the generation of noise due to the vibration of the motor to make the windows more advanced.

Hereinafter, an automatic opening / closing device of a sliding window (used as “the automatic opening and closing device of a window”) and a sliding window using the same will be described in detail for a sliding window consisting of one or more windows according to preferred embodiments of the present invention. .

2 is a block diagram showing an automatic opening and closing device of a sliding window according to an embodiment of the present invention.

2, the automatic opening and closing device 100 of the window according to an embodiment of the present invention is a guide rail 200, a pair of rotary pulleys (310, 320), the configuration motor 400, motor pulley (450) ), A pair of auxiliary pulleys 500, the rotating belt 600, the fixing member hanger (710, 720), and comprises a window fixing member (800). Here, the sliding window 900 is preferably composed of one or more windows, preferably the first window 910 and the second window 920. Here, the windows and doors mean a variety of windows or doors installed in openings such as windows or doorways to block the interior of the building from the outside, the automatic opening and closing device 100 of the window and the upper door frame of the windows or doors 950 can be used. In this case, it is preferable that the motor pulley 450, the auxiliary pulley 500, and the rotation pulleys 310 and 320 use the same pulley to increase the convenience of parts management.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a guide rail (200).

The guide rail 200 is seated on the side of the upper door frame 950 located above the windows 910, 920 to provide a movement path of the window fixing member 800, and the window fixing member 800 is slid. To move to.

As a specific state, the guide rail 200 according to an embodiment of the present invention is formed in a flat plate form the main rail 210 and the longitudinal direction of the main rail 210 seated on the side of the upper door frame 950 Along the main rail 210 may be composed of a guard rail 220 protruding vertically from one side. If necessary, a guard rail that protrudes perpendicularly to the other side corresponding to one side of the main rail 210 may be formed.

First grooves 212 are formed at both ends of the main rail 210 in the longitudinal direction so that the rotary pulleys 310 and 320 may be inserted, respectively, and the second grooves 214 at regular intervals along the longitudinal direction. This can be formed.

The guard rail 220 provides a movement path to the window fixing members 810 and 820 seated on the guard rail 220, while the window fixing members 810 and 820 move the guide rail 200. It serves to support a part of the window fixing member (810, 820) so as not to leave the guide rail 200.

A rod-shaped insertion rail 222 is formed at the distal end of the guard rail 220 to seat and support the fixing members 810 and 820. That is, since the insertion rail 222 is formed in a rod shape, each of the fixing members 810 and 820 may be easily separated from the insertion rail 222 only by the up and down clearance play.

The automatic opening and closing device 100 of the window according to the embodiment of the present invention may further include a first fastening member 216.

The first fastening member 216 is provided to fix the guide rail 200 to the side of the upper door frame 950, as long as the guide rail 200 can be fixed to the side of the upper door frame 950 Although a fastening member may be used, it is preferable to use a fastening member commonly used in the art, and more preferably, the upper door frame 950 penetrates through the second groove 214 of the main rail 210. It is recommended to use a screw that can be fixed to the side of).

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a rotary pulley (310, 320).

The rotary pulleys 310 and 320 are provided at both ends of the upper end surface in the longitudinal direction of the guide rail 200 so as to be rotatable by themselves, and are provided at one end of the upper end surface of the guide rail 200. It consists of a first rotary pulley 310 and the second rotary pulley 320 provided at the other end corresponding to the one end, and guides and supports the rotation of the rotary belt 600. More specifically, the rotary pulleys 310 and 320 are formed as timing pulleys and are inserted into and fixed to the first grooves 212 of the main rail 210.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a drive motor (400).

The drive motor 400 is provided on the upper part of the upper door frame 950 of the sliding window 900 to provide a driving force to the automatic opening and closing device 100 of the window, any drive motor used for this purpose may be used any motor Although it is good, it is preferable to use the motor which can perform both forward rotation and reverse rotation.

If necessary, a vibration absorber 410 may be provided between the upper door frame and the driving motor 400. Here, the vibration absorber 410 is provided to prevent the vibration generated during the operation of the drive motor 400 to the windows (910, 920), as long as the elastic material may be used any material. Preferably, rubber | gum etc. are used.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a motor pulley (450).

The motor pulley 450 is connected to the rotation shaft of the drive motor 400 and rotates according to the rotational drive of the rotation shaft. Any pulley may be used as long as the pulley is used for this purpose, but preferably, the timing pulley It is good to use

The automatic opening and closing device 100 of a window according to an embodiment of the present invention includes a pair of auxiliary pulleys 500.

The pair of auxiliary pulleys 500 are provided to add a predetermined tension to the rotating belt 600, are provided in the left and right directions of the motor pulley 450, so as to be spaced apart from the motor pulley 450 by a predetermined distance. It is provided, and comprises a first auxiliary pulley 510 and a second auxiliary pulley 520.

If the auxiliary pulley 500 is in contact with the rotating belt 600 to add a constant tension to the rotating belt 600, any pulley may be used, but it is preferable to use a timing pulley.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a rotating belt 600.

The rotating belt 600 is provided to move the window fixing member 800 according to the rotation of the motor pulley 450, the rotating belt used for this purpose may be any rotating belt, but preferably It is preferable to use a timing belt commonly used in the art.

More specifically, the rotating belt 600 is in contact with the outer peripheral surface of the motor pulley 450, a pair of rotary pulleys (310, 320) and a pair of auxiliary pulleys (510, 520) the motor pulley (450) In accordance with the rotation of the orbital movement is provided to enable.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a fixing member hanger 700.

The fixing member hanger 700 transmits the rotational force of the rotating belt 600 according to the orbital motion of the rotating belt 600 to an arbitrary first window or door 910 adjacent to the guide rail, thereby allowing the first window or door 910 to be moved. It is provided to move the), it is composed of two or more fixing member hangers (710, 720) spaced apart from each other at a predetermined interval and protruding in the vertical direction on the upper portion of the first window (910).

In other words, each of the fixing member hooks 710 and 720 is attached to the first window 910 and receives the external force from the window fixing member 800 to move the first window 910.

As such, the fixing member hangers 710 and 720 may be formed in any shape as long as they can be moved to the windows without receiving damage from the window fixing member 800, but are preferably formed in a cylindrical or rectangular parallelepiped shape. .

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a window fixing member (800).

The window fixing member 800 is provided to transmit the rotational force of the rotating belt 600 to the first window 910 according to the orbital movement of the rotating belt 600, it is connected to the fixing member hanger 700 It is installed, connected to the upper portion of the guide rail 200, and moves in a sliding manner in the upper portion of the guide rail 200 in accordance with the movement of the rotating belt 600.

The window fixing member 800 is composed of a number of fixing members 810 and 820 corresponding to the fixing member hangers 710 and 720 so that the window fixing member 800 can be connected to the fixing member hanger 700. 810 and 820 are connected to the rotating belt 600 so as to reciprocate between the two rotating pulleys 310 and 320.

As shown in FIG. 2, the plurality of fixing members 810 and 820 are formed at positions corresponding to the fixing member hangers 710 and 720 so as to be connected to the plurality of fixing member hangers 710 and 720, respectively. .

Here, the fixing member (810, 820) is composed of a body portion 311 and the flat projection 315. More specifically, as shown in FIG. 2, the arbitrary fixing member 810 has a belt insertion groove 812 in which the rotating belt 600 is inserted at one side of an upper surface thereof, and the guard rail 220 is formed. The body 811 is formed with a rail insertion groove 813 into which the insertion rail 222 of the guard rail 220 is inserted, and is connected to the body 811 so as to slide along the first window. It consists of a flat projection 815 formed with a hook insertion groove 816 so that the first fixing member hanger 710 attached to the 910 can be inserted. Here, the belt insertion groove 812 is inserted into the rotary belt 600 adjacent to the guard rail 220.

The flat projection 815 may be configured in a flat plate shape of the yaw (凹) shape. In addition, the hook insertion groove 816 may be formed in any shape as long as the fixing member hooks 710 and 720 attached to the windows 910 and 920 are inserted and supported. Fixing member hangers (710, 720) is preferably formed to be inserted into the inner end of the flat projection 815 along the longitudinal direction of the flat projection (815). That is, the hook insertion groove 816 means a part recessed inward from the flat projection 815.

As such, since the hook insertion grooves 816 are formed in the flat projection 815 in such a way that the fixing member hangers 710 and 720 of the windows can be easily detached, the windows 910 and 920 are automatically formed by the sliding windows. Regardless of the opening and closing device 100, it can be easily separated from the sliding window.

In a particular aspect, the length of the hook insertion groove 816 according to the present invention is formed to about 25 to 75% of the length of the flat projection 815, the width of the hook insertion groove 816 is fixed member hook of various thickness ( 710 and 720 may be formed wide so that both can be inserted.

If necessary, a second fastening member 830 may be provided at the upper portion of the belt insertion groove 812 to fix the rotating belt 600 to the fixing member 810. Here, the second fastening member 830 is a flat plate (not shown) and the flat plate to cover the upper portion of the rail insertion groove 813 so that the rotating belt 600 is not separated to the outside of the rail insertion groove 813 It may be composed of a screw (not shown) for fastening to the fixing member 810.

Here, since the number of the fixing member hanger (710, 720) and the fixing member (810, 820) can be changed according to the size, weight, etc. of the window (910, 920), the fixing member hanger 700 and the window Although the number of the fixing member hangers 710 and 720 and the fixing members 810 and 820 included in the fixing member 800 is not particularly limited, it is preferably composed of 2 to 6 pieces. At this time, since the fixing member hangers 710 and 720 and the fixing members 810 and 820 are formed at positions corresponding to each other, the fixing member hangers 710 and 720 are preferably provided in the same number.

On the other hand, the window fixing member 800 may be provided with an elastic member (not shown) on the outer peripheral surface of the hook insertion groove 816 formed in the flat projection 815. The elastic member is provided to prevent damage by absorbing the shock transmitted to the window fixing member 800, the fixing member due to the elastic member even if the fixing member hanger having a different thickness is inserted into the hook insertion groove 815 An empty space is not formed between the hooks 710 and 720 and the hook insertion groove 815.

As described above, the window fixing member 800 includes an elastic member between the fixing member hooks 710 and 720 and the hook insertion groove 815, and thus, from the fixing member hooks 710 and 720 to the window fixing member 800. In the process of transmitting external force, the damage caused by the impact generated during contact is not generated, and noise can be prevented.

As the elastic member, any material may be used as long as it is an elastic material. Preferably, rubber or the like is used.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes an opening and closing signal input means (not shown).

The open / close signal input means operates the driving motor 400 by receiving a signal from the outside, and may be formed in any form as long as it can operate the driving motor 400 by receiving a user's signal.

In one embodiment, the opening and closing signal input means to control the operation of the drive motor 400 by detecting a person entering and leaving the sliding window 900, it may use one or more human body sensor. The human body sensor is installed on the outer side, the inner side, or both of the windows to detect the entrance and exit of a person. Any sensor used for this purpose may be used, but preferably PIR (passive infrared sensor). ) It is better to use a sensor. At this time, the human body sensor and the driving motor is connected by wire or wireless.

In another embodiment, the open / close signal input unit may receive a signal from a person to control an operation of the driving motor 400, and may use a button unit. The button unit is to transmit an operation signal to the drive motor 400 according to the pressing force acting from the outside, it is preferable to use the open button commonly used in the art.

Automatic opening and closing device 100 of the window according to an embodiment of the present invention includes a linkage device (not shown).

The interlocking device is connected to each window so as to link a plurality of windows, and any interlocking device may be used as long as one window can be moved to link the other windows.

Figure 3 is a side view showing a sliding window provided with an automatic opening and closing device of the sliding window according to an embodiment of the present invention.

Referring to FIG. 3, a sliding window provided with an automatic opening and closing device 100 of a window according to an embodiment of the present invention includes an upper door frame 950, a support wood 960, a reinforcement wood 970, and an upper finish. Plate 980. Here, the upper door frame 950, the support neck 960, reinforcement 970, and the upper closing plate 980 is coupled using a coupling means commonly used in the art, preferably adhesives, screws, etc. do.

The upper door frame 950 constituting the sliding window according to an embodiment of the present invention is located above the windows 910 and 920, and the guide protrusions 912 of the windows 910 and 920 are inserted below the windows. The guide insertion groove 952 is provided to provide a movement path so that the sliding movement is possible, one side is attached to the automatic opening and closing device 100 of the window. Although the shape of the upper door frame 950 is not particularly limited, it is preferable to use the shape of the door frame commonly used in the art.

Automatic opening and closing device 100 constituting the sliding window according to an embodiment of the present invention is a main rail 210 which is seated on the side of the upper door frame 950, and along the longitudinal direction of the main rail 210 It includes a guide rail 200 consisting of a guard rail 220 protruding vertically from the side.

In addition, the automatic opening and closing device 100 of the sliding window is mounted on a pair of rotary pulleys 310 and 320 provided at both ends of the guide rail 200, and a drive motor seated on the upper door frame 950 of the window to provide driving force. 400 is connected to the rotation shaft of the drive motor 400, the motor pulley 450 is rotated in accordance with the rotation drive of the rotation shaft, and the motor pulley 450 in the left and right directions from the motor pulley 450 A pair of auxiliary pulleys 500 provided to be spaced apart from each other, the motor pulley 450, a pair of rotary pulleys (310, 320), a pair of auxiliary pulleys 500 in contact with the motor pulley (450) Rotating belt 600 orbital movement in accordance with the rotation, and provided on the upper portions of the windows (910, 920) to be spaced apart from each other further comprises a fixing member hanger (710, 720) protruding in the vertical direction.

In addition, the automatic opening and closing device 100 of the sliding window is installed one end is connected to the fixing member hanger (710, 720), the other end is connected to the rotating belt 600 adjacent to the guard rail 220, It further includes a window fixing member 800 is provided with two or more fixing members 810, 820 sliding along the guard rail 220.

In a particular aspect, the window fixing member 800 according to the present invention has one end fixed to the first fixing member hanger 710, the other end is connected to the rotating belt adjacent to the guard rail 220, the first fixed A member 810 and one end thereof are connected to the second fixing member hanger 720, and the other end is connected to the rotating belt 600 adjacent to the guard rail 220. Can be configured.

The support neck 960 constituting the sliding window according to an embodiment of the present invention is provided on the upper surface of the upper door frame 950 to support the side of the drive motor 400, the upper door frame 950 and It is preferably formed to have the same length, and is formed to have a height longer than the drive motor 400.

Reinforcing wood 970 constituting the sliding window according to an embodiment of the present invention is provided to form an attachment space of the automatic opening and closing device 100 of the sliding window, fixed in contact with the upper side of the support wood do. At this time, the reinforcement 970 is formed to have the same length as the upper door frame 950, it is preferably formed to have a longer width than the drive motor 400.

The upper closing plate 980 constituting the sliding window according to an embodiment of the present invention is attached to the reinforcement wood 970 is provided to protect the automatic opening and closing device 100 of the sliding window from the outside, sliding By blocking the automatic opening and closing device 100 of the window from the outside to prevent the automatic opening and closing device 100 of the sliding window and door by the external force. More specifically, the upper closing plate 980 is preferably formed of a flat plate bent to cover the automatic opening and closing device 100 of the sliding window.

Looking at the operation method of the automatic opening and closing device 100 of the window interlocking the sliding window composed of the first window 910, the second window 920 including the above-described configuration.

In a first step, when a signal is input through the open / close signal input means, the open / close signal input means drives the drive motor 400 to rotate in a counterclockwise direction, and thus the drive motor 400 is connected to the rotating shaft of the motor. Rotate 450 counterclockwise. When the motor pulley 450 is rotated counterclockwise, the rotating belt 600 is rotated counterclockwise. In addition, as the rotating belt 600 rotates in the counterclockwise direction, the first fixing member 810 and the second fixing member 820 connected to the rotating belt 600 move in the right direction, and thus the first The first window 910 in which the fixing member hangers 710 and 720 are connected to the first fixing member 810 and the second fixing member 820 is also moved in the right direction. In addition, when the first window 910 moves in the right direction, the second window 920 connected to the first window 910 through a linkage device also moves in the right direction. That is, when the driving motor 400 is rotated counterclockwise through the open / close signal input means, both the first window 910 and the second window 920 move to the right direction, and the sliding window 900 is illustrated in FIG. 4. Open as shown.

In a second step, if a signal is not input to the open / close signal input means for a predetermined time, the open / close signal input means drives the drive motor 400 to rotate clockwise, and thus the drive motor 400 is connected to the rotary shaft. Rotate the motor pulley 450 clockwise. When the motor pulley 450 is rotated in the clockwise direction, the rotating belt 600 is rotated in the clockwise direction. In addition, as the rotating belt 600 rotates in a clockwise direction, the first fixing member 810 and the second fixing member 820 connected to the rotating belt 600 move to the left direction, and thus the first fixing member 810 is moved to the left. The first window 910 in which the fixing member hangers 710 and 720 are connected to the fixing member 810 and the second fixing member 820 is also moved in the left direction. In addition, when the first window 910 moves in the left direction, the second window 920 connected to the first window 910 and the linkage device also moves in the left direction. That is, when the driving motor 400 is rotated in the clockwise direction through the open / close signal input means, both the first window 910 and the second window 920 move to the left direction, and the sliding window 900 is illustrated in FIG. 5. As closed.

While the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

1 is a perspective view showing an automatic opening and closing device of a conventional sliding window.

3 is a cross-sectional view showing a sliding window including the automatic opening and closing device of the sliding window according to an embodiment of the present invention.

4 is a front view showing a sliding window in a closed state according to an embodiment of the present invention.

5 is a front view showing a sliding window in an open state according to an embodiment of the present invention.

Brief description of the main parts of the drawing

100: automatic opening and closing device 200: guide rail

210: main rail 212: first groove

214: Second Home 220: Guardrail

222: insertion rail 310: first rotating pulley

320: second rotational pulley 400: drive motor

450: motor pulley 500: auxiliary pulley

510: first auxiliary pulley 520: second auxiliary pulley

600: rotating belt 700: fixing member hanger

710: first fixing member hanger 720: second fixing member hanger

800: window fixing member 810: first fixing member

811: body 812: belt insertion groove

813: rail insertion groove 815: flat projection

816: hook insertion groove 820: second fixing member

900: sliding door 910: first window

912: guide protrusion 920: second window

950: upper door frame 960: support wood

970: reinforcement 980: upper finishing plate

Claims

In the automatic opening and closing device of sliding windows used for sliding windows consisting of one or more windows,

A guide rail comprising a main rail mounted on a side of an upper door frame positioned at an upper portion of each window, and a guard rail projecting perpendicularly to one side based on a length direction of the main rail;

A pair of rotary pulleys provided at both ends of the guide rail;

A driving motor seated on the upper door frame to provide a driving force;

A vibration absorber provided between the upper door frame and the driving motor;

A motor pulley installed to be connected to the rotation shaft of the drive motor and rotating according to the rotational drive of the rotation shaft;

A pair of auxiliary pulleys provided to be spaced apart from the motor pulley by a predetermined distance;

A rotating belt contacting the motor pulley, a pair of rotary pulleys, and a pair of auxiliary pulleys to orbitally move according to the rotation of the motor pulley;

A fixing member hanger positioned at an upper portion of the window adjacent to the guide rail and having at least two fixing member hangers protruding in the vertical direction of the window; And

A belt insertion groove is formed at one side of the upper surface of which a rotating belt adjacent to the guard rail is inserted, and a body portion formed with a rail insertion groove into which the guard rail is inserted to slide along the guard rail, and extends from the body portion; A window fixing member comprising a flat protrusion having a hook insertion groove formed therein so that the fixing member hook can be inserted therein and having at least two fixing members sliding along the guard rail;

Automatic opening and closing device of sliding windows including a.

The method of claim 1,

End portion of the guard rail automatic opening and closing device of the sliding window door characterized in that the rod-shaped insertion rail is formed to seat the fixing member.

delete

A sliding window comprising one or more windows,

An upper door frame provided at an upper portion of each window;

A guide rail consisting of a main rail mounted on the side of the upper door frame, and a guard rail projecting perpendicularly to one side of the main rail in a longitudinal direction, and a pair of rotary pulleys provided at both ends of the guide rail; A driving motor seated on an upper part of the upper door frame to provide a driving force, a vibration absorber provided between the upper door frame and the driving motor, and a motor connected to the rotating shaft of the driving motor to rotate in accordance with the rotation driving of the rotating shaft. A pulley, a pair of auxiliary pulleys provided to be spaced apart from the motor pulley by a predetermined distance, a rotating belt contacting the motor pulley, the rotating pulley and the auxiliary pulley and rotating according to the rotation of the motor pulley, and a window adjacent to the guide rail. Located at the top of the fixed member hanger which is formed to protrude in the vertical direction of the window is provided with two or more fixed intervals A body part having a hook insertion part and a belt insertion groove into which a rotation belt adjacent to the guard rail is inserted, and a rail insertion groove into which the guard rail is inserted to slide along the guard rail, and a revolving part formed on one side of the upper surface; Automatically opening and closing of the sliding doors including a window fixing member extending from the body portion and formed with a flat plate-shaped protrusion formed with a hook insertion groove for inserting the fixing member hook, and having two or more fixing members sliding along the guard rail. Device;

A support neck provided on an upper surface of the upper door frame to support a side of the motor;

It is provided on the upper side of the support wood reinforcement for forming an attachment space of the automatic opening and closing device of the sliding window; And

An upper closing plate attached to the reinforcement to cover the automatic opening and closing device of the sliding window from the outside;

Sliding window, characterized in that it comprises a.